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Tracking and Monitoring Leaf Development, Coupling Law and Regulation Techniques during Flowering Period of Hybrid Foxtail Millet (<i>Setaria italica</i>(L.) P. Beauv.) Parental Lines 被引量:1
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作者 Qiang Li Dan Liu +5 位作者 Guoxing Ma Yanhua Shi Yanjiao Cui Xiaodong Zhang Suying Li Zhengli Liu 《Agricultural Sciences》 2021年第2期84-111,共28页
The determining factor of<em> Setaria italica </em>(L.) P. Beauv. is the coupling of its flowering stage and outcrossing rate which leads to low and unstable seed yields in self-pollinated foxtail millet h... The determining factor of<em> Setaria italica </em>(L.) P. Beauv. is the coupling of its flowering stage and outcrossing rate which leads to low and unstable seed yields in self-pollinated foxtail millet hybrids and thereby limits their large-scale application. In this study, Datong 27, Datong 29 and gu 83 were screened and identified through meticulous observations of their pollination habitats. High exposure rate, degree of exposure and plump of stigma are good factors to accept foreign pollen. Datong 27 and Datong 29 have some additional characteristics, such as long filaments and exposed and full anthers that contain a large amount of pollen. We transformed into a series of stigma-exposed and plump sterile lines that easily accepted exotic pollen. New restorer lines with anthers that were full of powder and exhibited quick recovery, which improved the parental lines’ heterosexual characteristics. By tracking and monitoring the leaf development of the new sterile and restorer lines, a coupling law of leaf development was determined and a series of flowering control measures were formulated. These factors ensured that the parental lines encounter one another during the flowering stage. By utilizing fertilizer and water, the vitality of the female stigma, amount of powder scattered and powder loosening time were prolonged, which increased hybrid seed yields from 1500 to 3000 kg/hm<sup>2</sup>. These findings were helpful in resolving the technical problems of seed production that restricted the propagation of foxtail millet hybrids and supporting future large-scale applications. 展开更多
关键词 Foxtail Millet HYBRIDS Leaf Age Coupling Law flowering Regulation Seed Production Technology
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Study on the Flowering Regulator of the Paeonia suffruticosa "Hongdan Lan"
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作者 Min Deng Suping Gao Yang Guo 《Journal of Agricultural Science and Technology(B)》 2012年第7期824-834,共11页
In the study, Southwest peony varieties group of Paeonia suffruticosa "Hongdan Lan" were analyzed, test was mainly divided into two parts, one is the nature of the low temperature, through the external environment i... In the study, Southwest peony varieties group of Paeonia suffruticosa "Hongdan Lan" were analyzed, test was mainly divided into two parts, one is the nature of the low temperature, through the external environment is mainly (temperature, light) gibberellin and nutrition solution regulation, on the Tianpeng peony florescence control technological research. The second is to explore the flower forcing peony after anthesis regeneration technique. The main research results: comprehensive gibberellin peony flower induction of morphological and physiological indexes, such as gibberellin concentration of 150 mgFL and 200 mg/L the effect of flower induction was better than the other treatments; gibberelin (GA3) breaking the dormancy of the peony to blossom ahead of time has the promoter action, also has certain effect on nutritional growth; to premature flowering the abscisic acid (ABA) has opposite effect; whereas auxin (IAA) and corn (ZT) effect was not obvious; rejuvenation results showed that after a year of conservation and managemental measures, flower induction after the flower of peony played a very important role in the restoration. After the winter flower induction, peony flowerpot of soil hardening, through the soil replacement, repair of roots, flower peony recovery showed a very significant effect. 展开更多
关键词 TianPeng peony flowering regulation Gibberellin (GA3) nutrition solution accumulated temperature rejuvenation.
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Arabidopsis SUMO protease ASP1 positively regulates flowering time partially through regulating FLC stability 被引量:6
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作者 Xiangxiong Kong Xi Luo +2 位作者 Gao-Ping Qu Peng Liu Jing Bo Jin 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2017年第1期15-29,共15页
The initiation of flowering is tightly regulated by the endogenous and environment signals, which is crucial for the reproductive success of flowering plants. It is well known that autonomous and vernalization pathway... The initiation of flowering is tightly regulated by the endogenous and environment signals, which is crucial for the reproductive success of flowering plants. It is well known that autonomous and vernalization pathways repress transcription of FLOWERING LOCUS C(FLC), a focal floral repressor, but how its protein stability is regulated remains largely unknown. Here, we found that mutations in a novel Arabidopsis SUMO protease 1(ASP1) resulted in a strong late-flowering phenotype under long-days, but to a lesser extent under short-days. ASP1 localizes in the nucleus and exhibited a SUMO protease activity in vitro and in vivo. The conserved Cys-577 in ASP1 is critical for its enzymatic activity, as well as its physiological function in the regulation of flowering time. Genetic and gene expression analyses demonstrated that ASP1 promotes transcription of positive regulators of flowering, such as FT,SOC1 and FD, and may function in both CO-dependent photoperiod pathway and FLC-dependent pathways.Although the transcription level of FLC was not affected in the loss-of-function asp1 mutant, the protein stability of FLC was increased in the asp1 mutant. Taken together, this study identified a novel bona fide SUMO protease, ASP1,which positively regulates transition to flowering at least partly by repressing FLC protein stability. 展开更多
关键词 flowering Arabidopsis protease phenotype mutant floral physiological regulating endogenous genomic
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Arabidopsis PWWP domain proteins mediate H_3K_(27) trimethylation on FLC and regulate flowering time 被引量:5
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作者 Jin-Xing Zhou Zhang-Wei Liu +4 位作者 Yong-Qiang Li Lin Li Bangjun Wang She Chen Xin-Jian He 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2018年第5期362-368,共7页
LHP1 mediates recruitment of the PRC2 histone methyltransferase complex to chromatin and thereby facilitates maintenance of H3K27me3 on FLC, a key flowering repressor gene. Here, we report that the PWWP domain protei... LHP1 mediates recruitment of the PRC2 histone methyltransferase complex to chromatin and thereby facilitates maintenance of H3K27me3 on FLC, a key flowering repressor gene. Here, we report that the PWWP domain proteins (PDPs) interact with FVE and MSI5 to suppress FLC expression and thereby promote flowering. We demonstrated that FVE, MSI5, and PDP3 were co-purified with LHP1. The H3K27me3 level on FLC was decreased in the pdp mutants as welt as in the fve/ msi5 double mutant. This study suggests that PDPs function together with FVE and MSI5 to regulate the function of the PRC2 complex on FLC. 展开更多
关键词 PDP MSI trimethylation on FLC and regulate flowering time Arabidopsis PWWP domain proteins mediate H3K FLC
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Interaction between temperature and photoperiod in regulation of flowering time in rice 被引量:6
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作者 SONG YuanLi GAO ZhiChao LUAN WeiJiang 《Science China(Life Sciences)》 SCIE CAS 2012年第3期241-249,共9页
Photoperiod and temperature are two pivotal regulatory factors of plant flowering. The floral transition of plants depends on accurate measurement of changes in photoperiod and temperature. The flowering time of rice ... Photoperiod and temperature are two pivotal regulatory factors of plant flowering. The floral transition of plants depends on accurate measurement of changes in photoperiod and temperature. The flowering time of rice (Oryza sativa) as a facultative short-day (SD) plant is delayed under long-day (LD) and/or low temperature conditions. To elucidate the regulatory functions of photoperiod and temperature on flowering time in rice, we systematically analyzed the expression and regulation of several key genes (Hd3a, RFT1, Ehdl, Ghd7, RID1/Ehd2/OsIdl, Se5) involved in the photoperiodic flowering regulatory pathway under different temperature and photoperiod treatments using a photoperiod-insensitive mutant and wild type plants. Our re- sults indicate that the Ehdl-Hd3a/RFT1 pathway is common to and conserved in both the photoperiodic and temperature flow- ering regulatory pathways. Expression of Ehdl, Hd3a and RFT1 is dramatically reduced at low temperature (23~C), suggesting that suppression of Ehdl, Hd3a and RFT1 transcription is an essential cause of delayed flowering under low temperature con- dition. Under LD condition, Ghd7 mRNA levels are promoted at low temperature (23~C) compared with normal temperature condition (28℃), suggesting low temperature and LD treatment have a synergistic role in the expression of Ghd7. Therefore, upregulation of Ghd7 might be a crucial cause of delayed flowering under low temperature condition. We also analyzed Hdl regulatory relationships in the photoperiodic flowering pathway, and found that Hdl can negatively regulate Ehdl transcription under LD condition. In addition, Hdl can also positively regulate Ghd7 transcription under LD condition, suggesting that the heading-date of rice under LD condition is also regulated by the Hdl-Ghd7-Ehdl-RFT1 pathway. 展开更多
关键词 RICE PHOTOPERIOD TEMPERATURE flowering regulation INTERACTION
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Regulation of Flowering Time by MicroRNAs 被引量:1
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作者 Chuan-Miao Zhou Jia-Wei Wang 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2013年第5期211-215,共5页
The shoot apical meristem(SAM) continuously produces lateral organs in plants.Based on the identity of the lateral organs,the life cycle of a plant can be divided into two phases: vegetative and reproductive.The SA... The shoot apical meristem(SAM) continuously produces lateral organs in plants.Based on the identity of the lateral organs,the life cycle of a plant can be divided into two phases: vegetative and reproductive.The SAM produces leaves during the vegetative phase,whereas it gives rise to flowers in the reproductive phase(reviewed in Poethig,2003).The floral transition,namely the switch from vegetative to reproductive growth, 展开更多
关键词 Regulation of flowering Time by MicroRNAs FLC GA
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SUMO E3 Ligases GmSIZ1a and GmSIZ1b regulate vegetative growth in soybean 被引量:6
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作者 Bin Cai Xiangxiong Kong +7 位作者 Chao Zhong Suli Sun Xiao Feng Zhou Yin Hua Jin Youning Wang Xia Li Zhendong Zhu Jing Bo Jin 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2017年第1期2-14,共13页
SIZ1 is a small ubiquitin-related modifier(SUMO) E3 ligase that mediates post-translational SUMO modification of target proteins and thereby regulates developmental processes and hormonal and environmental stress re... SIZ1 is a small ubiquitin-related modifier(SUMO) E3 ligase that mediates post-translational SUMO modification of target proteins and thereby regulates developmental processes and hormonal and environmental stress responses in Arabidopsis. However,the role of SUMO E3 ligases in crop plants is largely unknown. Here, we identified and characterized two Glycine max(soybean) SUMO E3 ligases, GmSIZ1a and GmSIZ1b. Expression of GmSIZ1a and GmSIZ1b was induced in response to salicylic acid(SA), heat, and dehydration treatment, but not in response to cold, abscisic acid(ABA), and Na Cl treatment. Although GmSIZ1a was expressed at higher levels than GmSIZ1b, both genes encoded proteins with SUMO E3 ligase activity in vivo.Heterologous expression of GmSIZ1a or GmSIZ1b rescued the mutant phenotype of Arabidopsis siz1-2, including dwarfism, constitutively activated expression of pathogen-related genes, and ABA-sensitive seed germination.Simultaneous downregulation of GmSIZ1a and GmSIZ1b(GmSIZ1a/b) using RNA interference(RNAi)-mediated gene silencing decreased heat shock-induced SUMO conjugation in soybean. Moreover, GmSIZ1 RNAi plants exhibited reduced plant height and leaf size. However,unlike Arabidopsis siz1-2 mutant plants, flowering time and SA levels were not significantly altered in GmSIZ1 RNAi plants. Taken together, our results indicate that GmSIZ1a and GmSIZ1b mediate SUMO modification and positively regulate vegetative growth in soybean. 展开更多
关键词 soybean Arabidopsis vegetative regulate translational mutant flowering phenotype Glycine Figure
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